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Transcript
Biological Annotation in R
Manchester R, 13th Nov, 2013
Nick Burgoyne
Bioinformatician, fiosgenomics
[email protected]
[email protected]
Bioinformatics
•Information management in biology
•Application of statistics to experimental data
•Creation of databases to store it
•Post-genomic era
▫Sequence of a human genome exists
▫Sequence of many different species exist
▫New human genomes can generated in 2 weeks
Typical investigations
•Sequence data
▫What mutations are relevant for a sample?
▫Which differences correlate with a trait?
•Microarray
▫Which genes (when expressed) can be used as a
classifier
•Generally
▫What other information is known, what is the
structure of the gene in question?
Annotation Databases
•European bioinformatics institute
▫ebi.ac.uk
•National Centre for Biological information
▫ncbi.nlm.nih.gov
•Ensembl
▫ensembl.org
•Catalogue of Somatic Mutations in Cancer
▫cancer.sanger.ac.uk
•Mouse Genome Informatics
▫informatics.jax.org
•FlyBase
AnnotationDbi
•Microarrays
▫10-100k features (genes, parts of genes)
▫Hope for ~10% genes of interest
Only care about a few
Sets of genes have known function together
▫Mapping them to information
Names, Symbols, Homologs
Functions, pathways they act in, function
Arrays and AnnotationDbi
•General database interface for annotation data
#A definition of species specific data
>require(org.Hs.eg.db)
#A set of data that is relevant to your microarray
>require(hgu95av2.db)
#A vector of probes of relevance
>probes
[1] "31882_at" "38780_at" "37033_s_at" "1702_at" "31610_at”
Arrays and AnnotationDbi
#Access information from these probes, symbols
>probes <- c(“31882_at”, “38780_at”, “37033_s_at”, “1702_at”,
“31610_a”)
>unlist(mget(probes, hgu95av2SYMBOL))
31882_at 38780_at 37033_s_at 1702_at 31610_at
"RRP9" "AKR1A1" "GPX1" "IL2RA" "PDZK1IP
#Access other aspects
>ls("package:hgu95av2.db")
…[5] “hgu95av2CHR“ #The chromosome
…[7] "hgu95av2CHRLOC“ #The location on the chromosome
…[15] “hgu95av2GO” #The functions of this probe
AnnotationDbi and BioBase etc
•Set of tools built around AnnotationDbi
•Allows for the annotation and analysis of function
simply and easily
•Most array types are catered for
•Species specific data also exist (most model
species)
•Even if the database doesn’t exist your species,
but is present in the ncbi repositories
>library(AnnotationForge)
What if I’m interested in other
data?
•Other questions, such as the:
▫Is my mutant associated with Cancer?
▫Does it correspond to a known disorder?
▫What is the sequence of this region of the DNA?
• Hope that the data source you are using is on the
biomart network!
▫http://www.biomart.org/
▫46 databases, common interface, defined structure
▫Bioconductor: biomaRt
biomaRt
>library(biomaRt)
#What databases are available?
>head(listMarts())
biomart version
1 ensembl ENSEMBL 52 GENES (SANGER UK)
2 snp ENSEMBL 52 VARIATION (SANGER UK)
3 vega VEGA 33 (SANGER UK)
4 msd MSD PROTOTYPE (EBI UK)
5 uniprot UNIPROT PROTOTYPE (EBI UK)
6 htgt HIGH THROUGHPUT GENE TARGETING AND TRAPPING (SANGER UK)
#Choose a database
>mart = useMart("CosmicMart")
biomaRt
#What datasets are avaliable for each mart?
>head(listDatasets(mart)
dataset description version
1 COSMIC65
COSMIC65
2 COSMIC66
COSMIC66
3 COSMIC64
COSMIC64
cos65 = useDataset("COSMIC65", mart = mart)
biomaRt
#How to filter the data
> head(listFilters(cos65))
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2
3
4
5
6
name
description
id_sample
Sample ID
sample_name
Sample Name
sample_source Sample Source
samp_gene_mutated Mutated Sample
tumour_source Tumour Source
id_gene
Gene ID
biomaRt
#List the data that is available
head(listAttributes(cos65))
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2
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6
name
description
id_sample COSMIC Sample ID
sample_name
Sample Name
sample_source
Sample Source
tumour_source
Tumour Source
id_gene
Gene ID
gene_name
Gene Name
biomaRt
#A set of gene names
genes <- c("KRAS", "BRAF")
#Get a list of cancers where these are mutated
mutations <- getBM(attributes = c("id_gene", "gene_name",
+ "site_primary"), filters = "gene_name", value = genes, mart =
+ cos65)
> head(mutations)
id_gene gene_name
site_primary
1
4
KRAS
endometrium
2
4
KRAS
pancreas
3
4
KRAS
biliary_tract
4
2
BRAF large_intestine
5
2
BRAF
thyroid
6
4
KRAS large_intestine
biomaRt
genes <- "KRAS"
sites <- "prostate"
#Mutation data associated with KRAS and prostate cancer
mutations <- getBM(attributes = c("gene_name", "site_primary", "cds_mut_syntax",
+ "aa_mut_syntax", "tumour_source"), filters = c("gene_name", "site_primary"), value =
+ list(genes, sites), mart = cos66)
1
2
3
4
5
6
7
8
9
10
11
gene_name site_primary cds_mut_syntax aa_mut_syntax tumour_source
KRAS
prostate
c.182A>G
p.Q61R
primary
KRAS
prostate
c.34G>T
p.G12C
NS
KRAS
prostate
c.38G>A
p.G13D
NS
KRAS
prostate
c.34G>A
p.G12S
NS
KRAS
prostate
c.181C>A
p.Q61K
NS
KRAS
prostate
c.37G>A
p.G13S
NS
KRAS
prostate
c.35G>A
p.G12D
NS
KRAS
prostate
c.35G>A
p.G12D
primary
KRAS
prostate
c.35G>T
p.G12V
NS
KRAS
prostate
c.35G>T
p.G12V
primary
KRAS
prostate
c.35G>T
p.G12V
metastasis
biomaRt
•Always request the filter value as an attribute
▫Not all values you search for exist
▫Results will be in random orders
▫The search parameters are totally excluded
•Don’t expect the most up-to date answers
▫Often different (older) data than available directly
▫COSMIC is actually very good
•The connection can be very flaky
▫Only partial data sets may be returned